Comparison of the distribution of the repetitive DNA sequences in three variants of Cucumis sativus reveals their phylogenetic relationships

Repetitive DNA sequences with variability in copy number or/and sequence polymorphism can be employed as useful molecular markers to study phylogenetics and identify species/chromosomes when combined with fluorescence in situ hybridization(FISH).Cucumis sativus has three variants,Cucumis sativus L.var.sativus,Cucumis sativus L.var.hardwickii and Cucumis sativus L.var.xishuangbannesis.The phylogenetics among these three variants has not been well explored using cytological landmarks.Here,we concentrate on...     

Distribution of the tandem repeat sequences and karyotyping in cucumber (Cucumis sativus L.) by fluorescence in situ hybridization

We analyzed repeat sequences composition in the genome of cucumber inbred line 9930 using whole-genome shotgun reads. The analysis showed that satellite DNA sequences are the most dominant components in the cucumber genome. The distribution pattern of several tandem repeat sequences (Type I/II, Type III and Type IV) on cucumber chromosomes was visualized using fluorescence in situ hybridization (FISH). The FISH signals of the Type III and 45S rDNA provide useful cytogenetic markers, whose position and fluorescence intensity allow for easy identification of all somatic metaphase chromosomes. A karyotype showing the position and fluorescence intensity of several tandem repeat sequences is constructed. The establishment of this FISH-based karyotype has created the basis for the integration of molecular, genetic and cytogenetic maps in Cucumis sativus and for the ultimate genome sequencing project as well.     

西双版纳黄瓜Cs-Psy1基因的序列特征与表达分析

西双版纳黄瓜是我国特有的果肉橙黄色的黄瓜变种资源,不同种质间的β-胡萝卜素含量差异明显。PSY是胡萝卜素生物合成途径中的第1个限速酶。本文以西双版纳黄瓜为试材,分别克隆西双版纳黄瓜八氢番茄红素合成酶(Cs-PSY1)的DNA和c DNA序列,结果显示,DNA长2797 bp,包含5个内含子和6个外显子,c DNA序列长1385 bp,编码421个氨基酸。Psy1推测的氨基酸序列包含该家族的2个特征序列,保守性很高。该蛋白为不稳定蛋白,无明显疏水区,未预测到跨膜结构;系统进化分析结果显示,西双版纳黄瓜的Cs-PSY1蛋白与甜瓜的同源性较高;与栽培黄瓜深度测序材料"9930"和"GY14"的序列进行比较分析,结合115份黄瓜重测序结果,共发现5个SNP,其中2个位于起始密码子上游27 bp处和971 bp处,3个位于内含子区域。其中SNP4在重测序的19份西双版纳黄瓜中的突变率为100%,在96份栽培黄瓜中的特异性为5.3%。转录因子结合位点预测结果显示,在普通栽培黄瓜该位点处存在一个CTAG motif,在西双版纳黄瓜中该位点突变后则不存在该motif。利用实时荧光定量PCR技术分析Cs-Psy1的表达量变化趋势,结果表明,在黄瓜不同果实发育时期,该基因的表达量均呈现先上升后下降的趋势,在西双版纳黄瓜中表达量变化的差异明显,在授粉后50 d达到最大值,是果实发育初期表达量的8倍多,是同时期普通黄瓜的4倍多,而普通黄瓜表达量的总体变化相对平缓。西双版纳黄瓜果实内果皮的表达水平明显高于中果皮,最高相差约5倍,普通黄瓜差异不明显。从上述研究结果推测Psy1基因可能影响西双版纳黄瓜的β-胡萝卜素积累。     

Karyotype analysis of a Korean cucumber cultivar (Cucumis sativus L. cv. Winter Long) using C-banding and bicolor fluorescence in situ hybridization

An intensive karyotype analysis of a Korean cucumber cultivar (Cucumis sativus L. cv. Winter Long) was carried out with three different methods. These included Feulgen staining, Giemsa C-banding, and fluorescence in situ hybridization (FISH). The mitotic chromosomes of the cucumber (2n = 2x = 14) were characterized, based on the length and arm ratio values. A C-banding analysis showed dark stains on the centromeric, telomeric, and intercalary regions of the chromosomes, except that chromosome 2 had a heavy staining in the long arm. Bicolor FISH, using 45S and 5S rDNA probes, provided additional information to identify cucumber chromosomes. The signals for 45S rDNA were detected on the pericentromeric regions of chromosomes 1, 2, and 4. The signals for 5S rDNA were on the short arm of chromosome 5. Similar band patterns (as the C-banding) were observed when the chromosomes were counter-stained with 4',6-diamidino-2-phenyoindole (DAPI). The data implied that the karyotype of the Korean cucumber cultivar is peculiar and different from previous reports.     

采用SSR和RAPD标记研究黄瓜属（葫芦科）的系统发育关系

野黄瓜Cucumis hystrix（2n=24）是在亚洲发现的第一个染色体基数为12的黄瓜属物种。这一发现对现行的以染色体基数和地理分布为基础的黄瓜属分类系统提出了质疑。采用SSR和RAPD两种分子标记对黄瓜属22份不同类型材料的亲缘关系进行了研究。结果表明,野黄瓜C.hystrix与黄瓜C.sativus var.sativus（2n=14）间的遗传距离（SSR:0.59,RAPD:0.57）小于其与甜瓜C.melo var.melo（2n=24）间的距离（SSR:0.87,RAPD:0.70）。SS     

Towards an expanded and integrated linkage map of cucumber (Cucumis sativus L.).

Linkage maps in cucumber (Cucumis sativus var. sativus L.) have been constructed using morphological traits, isozymes, restriction fragment length polymorphisms (RFLPs), and random amplified polymorphic DNAs (RAPDs). The lack of polymorphism in cucumber has led to the construction of relatively unsaturated maps (13- to 80-point). We have added amplified fragment length polymorphism (AFLP) markers to existing narrow-based (within C. sativus) and wide-based (C. sativus x C. sativus var. hardwickii) maps. JOINMAP v. 2.0 was used to construct maps and to join these with historical maps from several previous studies. Our narrow- and wide-based merged maps contain 255 and 197 markers, respectively, including morphological traits, disease resistance loci, isozymes, RFLPs, RAPDs, and AFLPs. Condensation of total map distance occurred in merged maps compared to historic maps using many of the same markers. This phenomenon is most likely due to differences in map construction algorithms. The merged maps represent the best fit of the data used and are an important first step towards the construction of a comprehensive linkage map for cucumber. Identification of additional anchor markers between the narrow- and wide-based maps presented here may allow their future integration into a unified model.     

甜瓜属种间杂交线粒体DNA的遗传分析

为了研究甜瓜属种间杂交线粒体DNA的遗传规律,对甜瓜属人工杂交合成的异源四倍体新种(Cucumis hytivus Chen and Kirkbride.)的S5后代及其杂交母本甜瓜属野生种（Cucumis hystrix Chakr.）和父本栽培种黄瓜‘北京截头’(Cucumis sativus L.)线粒体中apocytochrome b (cob), NADH dehydrogenase subunit 1 (nad 1), NADH dehydrogenase subunit 7(nad 7) 基因序列片断进行了测序与分析。结果显示3个种长度为909 bp cob, 943 bp nad 1和880 bp nad 7基因片断序列中分别存在着相应的1、7和17个多态性核苷酸位点,其中新种与父本‘北京截头’相同而与母本野生种不同的多态性碱基位点分别有1、6和14个,nad 1和nad 7中分别只有1和3个多态性位点与双亲都不相同。该结果表明甜瓜属hystrix譻ativus种间杂交后代线粒体DNA多态性碱基位点主要来源于父本而不是母本,线粒体DNA主要表现为父系遗传。     

Painting the rye genome with genome-specific sequences

We used rye-specific repetitive DNA sequences in fluorescence in situ hybridization (FISH) to paint the rye genome and to identify rye DNA in a wheat background. A 592 bp fragment from the rye-specific dispersed repetitive family R173 (named UCM600) was cloned and used as a FISH probe. UCM600 is dispersed over the seven rye chromosomes, being absent from the pericentromeric and subtelomeric regions. A similar pattern of distribution was also observed on the rye B chromosomes, but with weaker signals. The FISH hybridization patterns using UCM600 as probe were comparable with those obtained with the genomic in situ hybridization (GISH) procedure. There were, however, sharper signals and less background with FISH. UCM600 was combined with the rye-specific sequences Bilby and pSc200 to obtain a more complete painting. With these probes, the rye chromosomes were labeled with distinctive patterns; thus, allowing the rye cultivar 'Imperial' to be karyotyped. It was also possible to distinguish rye chromosomes in triticale and alien rye chromatin in wheat-rye addition and translocation lines. The distribution of UCM600 was similar in cultivated rye and in the wild Secale species Secale vavilovii Grossh., Secale sylvestre Host, and Secale africanum Stapf. Thus, UCM600 can be used to detect Secale DNA introgressed from wild species in a wheat background.     

甜瓜属植物种间杂交研究进展

在甜瓜属野生种Cucumis hystrix Chakr. 和栽培黄瓜之间的种间杂交取得成功的基础上,简要回顾了甜瓜属植物种质资源和系统学的研究情况,然后从甜瓜属植物种间杂交的概况、种间杂交的障碍及其解决途径等三个方面,回顾和讨论了甜瓜属植物的种间杂交的研究进展,并对进一步通过种间杂交研究利用甜瓜属野生植物资源的前景进行了展望。     

用于目标序列染色体定位的镜鲤BAC-FISH体系构建

为了构建用于镜鲤(Cyprinus carpio var. specularis)特定基因组序列染色体定位的实验体系, 在细菌人工染色体(Bacterial Artificial Chromosome, BAC)文库筛选池中对已知短序列基因组片段进行PCR扩增, 筛选出包含目标序列的BAC克隆, 提取BAC质粒进行缺刻平移标记制备探针, 开展荧光原位杂交(Fluorescence in situ hybridization, FISH)实验。通过对染色体片前处理、BAC质粒探针制备、C0t-1 DNA封闭基因组重复序列、预杂交、荧光染料选择、信号放大等一系列实验条件和方法的探索优化, 成功实现了目标序列在镜鲤有丝分裂中期染色体上的定位。定位对象既包括在染色体上有单一位点的序列, 如斑马鱼微卫星标记Z6884和Z4268, 也包括在染色体上有多个位点的重复序列, 如黄河鲤性别相关标记CCmf1。来自斑马鱼同一条染色体上的两个微卫星标记被分别定位于镜鲤不同染色体上, 为鲤鱼染色体数目加倍的进化假设提供了一项直接实验证据, 同时将现有遗传连锁图谱与染色体对应起来, 可作为染色体识别和细胞遗传学图谱构建的依据。黄河鲤性别相关重复序列被定位于不少于四条染色体上, 为性别决定相关基因的筛查提供了研究线索。这一BAC-FISH实验体系将成为鲤细胞遗传学图谱构建、基因组进化和比较基因组学研究中的重要研究工具。       

Chromosome-Specific Painting in Cucumis Species Using Bulked Oligonucleotides

Chromosome-specific painting is a powerful technique in molecular cytogenetic and genome research. We developed an oligonucleotide (oligo)-based chromosome painting technique in cucumber (Cucumis sativus) that will be applicable in any plant species with a sequenced genome. Oligos specific to a single chromosome of cucumber were identified using a newly developed bioinformatic pipeline and then massively synthesized de novo in parallel. The synthesized oligos were amplified and labeled with biotin or digoxigenin for use in fluorescence in situ hybridization (FISH). We developed three different probes with each containing 23,000–27,000 oligos. These probes spanned 8.3–17 Mb of DNA on targeted cucumber chromosomes and had the densities of 1.5–3.2 oligos per kilobases. These probes produced FISH signals on a single cucumber chromosome and were used to paint homeologous chromosomes in other Cucumis species diverged from cucumber for up to 12 million years. The bulked oligo probes allowed us to track a single chromosome in early stages during meiosis. We were able to precisely map the pairing between cucumber chromosome 7 and chromosome 1 of Cucumis hystrix in a F₁ hybrid. These two homeologous chromosomes paired in 71% of prophase I cells but only 25% of metaphase I cells, which may provide an explanation of the higher recombination rates compared to the chiasma frequencies between homeologous chromosomes reported in plant hybrids.     

A high-resolution karyotype of cucumber (Cucumis sativus L. 'Winter Long') revealed by C-banding, pachytene analysis, and RAPD-aided fluorescence in situ hybridization.

Using molecular cytogenetic DNA markers, C-banding, pachytene analysis, and fluorescence in situ hybridization (FISH), a high-resolution karyotype was established in the cucumber. C-banding showed distinct hetero chromatic bands on the pericentromeric, telomeric, and intercalary regions of the chromosomes. The C-banding patterns were also consistent with the morphology of 4'-6-diamino-2-phenylindole dihydrochloride (DAPI)-stained pachytene chromosomes. Two repetitive DNA fragments, CsRP1 and CsRP2, were obtained by PCR and localized on the mitotic metaphase and meiotic pachytene chromosomes. CsRP1 was detected on the pericentromeric heterochromatic regions of all chromosomes, except chromosome 1. CsRP2 was detected on 5 (chromosomes 1, 2, 3, 4, and 7) of 7 chromosomes. All homologous chromosome pairs could be distinguished by FISH using 2 RAPD markers. This is the first report on molecular karyotyping of mitotic and meiotic spreads of cucumber.     

Comparative FISH analysis of C-positive regions of chromosomes of wood mice (Rodentia, Muridae, Sylvaemus)

The homology of DNA of C-positive centromeric regions of chromosomes in wood mice of the genus Sylvaemus (S. uralensis, S. fulvipectus, S. sylvaticus, S. flavicollis, and S. ponticus) was estimated for the first time. DNA probes were generated by microdissection from the centromeric regions of individual autosomes of each species, and their fluorescence in situ hybridization (FISH) with metaphase chromosomes of representatives of all studied wood mouse species was carried out. Unlike in the chromosomal forms and races of S. uralensis, changes in the DNA composition of the chromosomal centromeric regions in the wood mouse species of the genus Sylvaemus (including closely related S. flavicollis and S. ponticus) are both quantitative and qualitative. The patterns of FISH signals after in situ hybridization of the microdissection DNA probes with chromosomes of the species involved in the study demonstrate significant differences between C-positive regions of wood mouse chromosomes in the copy number and the level of homology of repetitive sequences as well as in the localization of homologous repetitive sequences. It was shown that C-positive regions of wood mouse chromosomes can contain both homologous and distinct sets of repetitive sequences. Regions enriched with homologous repeats were detected either directly in C-positive regions of individual chromosomes or only on the short arms of acrocentrics, or at the boundary of C-positive and C-negative regions.     

Genetic mapping of paternal sorting of mitochondria in cucumber

Mitochondria are organelles that have their own DNA; serve as the powerhouses of eukaryotic cells; play important roles in stress responses, programmed cell death, and ageing; and in the vast majority of eukaryotes, are maternally transmitted. Strict maternal transmission of mitochondria makes it difficult to select for better-performing mitochondria, or against deleterious mutations in the mitochondrial DNA. Cucumber is a useful plant for organellar genetics because its mitochondria are paternally transmitted and it possesses one of the largest mitochondrial genomes among all eukaryotes. Recombination among repetitive motifs in the cucumber mitochondrial DNA produces rearrangements associated with strongly mosaic (MSC) phenotypes. We previously reported nuclear control of sorting among paternally transmitted mitochondrial DNAs. The goal of this project was to map paternal sorting of mitochondria as a step towards its eventual cloning. We crossed single plants from plant introduction (PI) 401734 and Cucumis sativus var. hardwickii and produced an F(2) family. A total of 425 F(2) plants were genotyped for molecular markers and testcrossed as the female with MSC16. Testcross families were scored for frequencies of wild-type versus MSC progenies. Discrete segregations for percent wild-type progenies were not observed and paternal sorting of mitochondria was therefore analyzed as a quantitative trait. A major quantitative trait locus (QTL; LOD >23) was mapped between two simple sequence repeats encompassing a 459-kb region on chromosome 3. Nuclear genes previously shown to affect the prevalence of mitochondrial DNAs (MSH1, OSB1, and RECA homologs) were not located near this major QTL on chromosome 3. Sequencing of this region from PI 401734, together with improved annotation of the cucumber genome, should result in the eventual cloning of paternal sorting of mitochondria and provide insights about nuclear control of organellar-DNA sorting.     

An integrated molecular cytogenetic map of Cucumis sativus L. chromosome 2

Background

Integration of molecular, genetic and cytological maps is still a challenge for most plant species. Recent progress in molecular and cytogenetic studies created a basis for developing integrated maps in cucumber (Cucumis sativus L.).

Results

In this study, eleven fosmid clones and three plasmids containing 45S rDNA, the centromeric satellite repeat Type III and the pericentriomeric repeat CsRP1 sequences respectively were hybridized to cucumber metaphase chromosomes to assign their cytological location on chromosome 2. Moreover, an integrated molecular cytogenetic map of cucumber chromosomes 2 was constructed by fluorescence in situ hybridization (FISH) mapping of 11 fosmid clones together with the cucumber centromere-specific Type III sequence on meiotic pachytene chromosomes. The cytogenetic map was fully integrated with genetic linkage map since each fosmid clone was anchored by a genetically mapped simple sequence repeat marker (SSR). The relationship between the genetic and physical distances along chromosome was analyzed.

Conclusions

Recombination was not evenly distributed along the physical length of chromosome 2. Suppression of recombination was found in centromeric and pericentromeric regions. Our results also indicated that the molecular markers composing the linkage map for chromosome 2 provided excellent coverage of the chromosome.     

Localization of BAC clones on mitotic chromosomes of <Emphasis Type="Italic">Musa acuminata</Emphasis> using fluorescence <Emphasis Type="Italic">in situ</Emphasis> hybridization

A bacterial artificial chromosome (BAC) library of banana (Musa acuminata) was used to select BAC clones that carry low amounts of repetitive DNA sequences and could be suitable as probes for fluorescence in situ hybridization (FISH) on mitotic metaphase chromosomes. Out of eighty randomly selected BAC clones, only one clone gave a single-locus signal on chromosomes of M. acuminata cv. Calcutta 4. The clone localized on a chromosome pair that carries a cluster of 5S rRNA genes. The remaining BAC clones gave dispersed FISH signals throughout the genome and/or failed to produce any signal. In order to avoid the excessive hybridization of repetitive DNA sequences, we subcloned nineteen BAC clones and selected their ‘low-copy’ subclones. Out of them, one subclone gave specific signal in secondary constriction on one chromosome pair; three subclones were localized into centromeric and peri-centromeric regions of all chromosomes. Other subclones were either localized throughout the banana genome or their use did not result in visible FISH signals. The nucleotide sequence analysis revealed that subclones, which localized on different regions of all chromosomes, contained short fragments of various repetitive DNA sequences. The chromosome-specific BAC clone identified in this work increases the number of useful cytogenetic markers for Musa.     

Cross pathogenicity studies with isolates of Fusarium oxysporum from either cucumber or watermelon pathogenic to both crop species*

Isolates of Fusarium oxysporum from Abaco, the Bahamas, whether obtained from wilted plants of cucumber (Cucumis sativus) or watermelon (Citrullus lanatus), were pathogenic to cucumber, watermelon, and cantaloupe (Cucumis melo var. reticulatus). The West Indian gherkin (Cucumis anguria), pumpkin (Cucurbita pepo), and three cultivars of summer squash (C. pepo var. melopepo) were not susceptible. Strains of F. oxysporum from wilted cucumber or watermelon plants from Florida were highly pathogenic only to their original host species and are regarded as different formae speciales.     

Inference of subgenomic origin of BACs in an interspecific hybrid sugarcane cultivar by overlapping oligonucleotide hybridizations

Sugarcane (Saccharum spp.) breeders in the early 20th century made remarkable progress in increasing yield and disease resistance by crossing Saccharum spontaneum L., a wild relative, to Saccharum officinarum L., a traditional cultivar. Modern sugarcane cultivars have approximately 71%-83% of their chromosomes originating from S. officinarum, approximately 10%-21% from S. spontaneum, and approximately 2%-13% recombinant or translocated chromosomes. In the present work, C(0)t-based cloning and sequencing (CBCS) was implemented to further explore highly repetitive DNA and to seek species-specific repeated DNA in both S. officinarum and S. spontaneum. For putatively species-specific sequences, overlappping oligonucleotide probes (overgos) were designed and hybridized to BAC filters from the interspecific hybrid sugarcane cultivar 'R570' to try to deduce parental origins of BAC clones. We inferred that 12?967 BACs putatively originated from S. officinarum and 5117 BACs from S. spontaneum. Another 1103 BACs were hybridized by both species-specific overgos, too many to account for by conventional recombination, thus suggesting ectopic recombination and (or) translocation of DNA elements. Constructing a low C(0)t library is useful to collect highly repeated DNA sequences and to search for potentially species-specific molecular markers, especially among recently diverged species. Even in the absence of repeat families that are species-specific in their entirety, the identification of localized variations within consensus sequences, coupled with the site specificity of short synthetic overgos, permits researchers to monitor species-specific or species-enriched variants.     

rDNA (18S-28S and 5S) colocalization and linkage between ribosomal genes and (TTAGGG)(n) telomeric sequence in the earthworm,Octodrilus complanatus (Annelida: Oligochaeta: Lumbricidae), revealed by single- and double-color FISH

Spermatogonial and metaphase I chromosomes of the lumbricid earthworm Octodrilus complanatus (Annelida: Oligochaeta) were examined using fluorescent in situ hybridization (FISH) with three repetitive DNA probes-5S rDNA, 18S-26S rDNA, and (TTAGGG)(n). Single-color FISH consistently mapped one chromosome pair per spread using either 5S rDNA or 18S-26S rDNA as probes. Simultaneous (18S-26S)-5S and (18S-26S)-(TTAGGG)(n) FISH demonstrated that repeated units of the two ribosomal families were overlapped and closely associated with telomeric sequences.     

Ty1-copia retrotransposon-based SSAP marker development and its potential in the genetic study of cucurbits.

Three long terminal repeat (LTR) sequences of Ty1-copia retrotransposons were identified in cucumber (Cucumis sativus L.) and named Tcs 1, Tcs 2, and Tcs 3. A sequence-specific amplification polymorphism (SSAP) marker system based on these LTR sequences displayed a higher level of polymorphism than AFLPs in cucumber. This marker system could also detect loci in other Cucumis species for genetic diversity analysis. The three Tcs LTRs existed within the exons of genes because of the effective amplification band patterns from the cDNA templates. The potential usefulness of the SSAP marker system in studies of the evolution of genes or genomes was verified after exploring loci changes in first and second generations of a synthetic allotetraploid in Cucumis. This study is the first report of the development of a retrotransposon-based marker system and the SSAP technique in cucurbits.